The use of a probe stabilizer to reduce musculoskeletal overload of ultrasound operators in routine diagnostic echocardiographic imaging

Echocardiography is the cornerstone of diagnostic imaging in cardiac patients due to its ease of use, cost-effectiveness, and safety. However, the disadvantage of this technique is the musculoskeletal overload of the cardiac sonographer, which results in a high incidence of work-related injuries of up to 90%⁽¹⁾. Work-related injuries can affect the ability of sonographers to perform required occupational activities, possibly jeopardizing the quality of patient care and productivity of the ultrasound department⁽²⁾. Important causes of work-related injuries are excessive strain, repetitive motions, and duration of pressure^(3,4). The wrist and shoulder are the most common body parts injured in sonographers^(5,6). A common static work posture during scanning contains wrist flexion and extreme shoulder abduction for a long period of time. An angle of abduction greater than 30° puts the shoulder at greater risk for injury⁽⁷⁾. Modified scanning techniques and ergonomically designed workstations can significantly reduce the muscle activity. The objective of the current study was to investigate to what extent a probe stabilizer could reduce shoulder abduction and the muscle activity of the forearm.

Six cardiac sonographers participated in the study. Their professional experience ranged from 4 to 33 years. The study population consisted of 31 male patients with an average BMI of 25.4 ± 3.1 kg/m². The average time to fixate the probe to the chest with the stabilizer took 2.7 ± 1.3 minutes. The use of the stabilizer did not affect the time needed for image acquisition (5.1 versus 5.2 minutes, p = 0.46). The average score for image quality recorded with the probe stabilizer was 3.8 ± 1. The patient’s experience was assessed with a mean score of 4.1 ± 1. Extreme right arm abduction (>30˚) occurred in 58% of the time with use of the stabilizer and in 98% of the time during regular scanning (p <0.01). Activity of right forearm extensor muscles was 42% with and 60% without stabilizer (p = 0.04). For the flexor muscles these percentages were 47% and 87%, respectively (p <0.01) (Tab. 1 and Fig. 2).

Fig. 2.

The present study demonstrated that the use of a probe stabilizer is a practical and easy method to relief the musculoskeletal overload in cardiac sonographers. It reduced the duration of both extreme shoulder abduction and activity of flexor muscles in the forearm with roughly 40%.

The incidence of sick leave because of work-related injury is increasing in ultrasound departments^(8,9). The mechanism for injury is likely related to mechanical compression of the supraspinatus tendon with reduction of blood supply to the muscles when the arm is elevated⁽¹⁰⁾. Nowadays, departments are more motivated to minimize the risk of work-related musculoskeletal injuries. Injuries can be reduced by optimizing work environment ergonomically (e.g. ultrasound systems, exam tables, and chairs). Moreover, work schedules could be adjusted to optimize muscle recovery time. Additionally, it is important to create awareness among sonographers about high-risk work postures such as excessive arm abduction and over-reaching^(11–13). Typically, these postures occur when sonographers do not take time to optimize their position with respect to the patient and the ultrasound system. However, the degree of overreaching and abduction are also determined by patient’s body habitus. Supportive equipment can be used to contribute to minimize high-risk work postures. In the current study we investigated the advantages of using a probe stabilizer to create a hands-off workflow during transthoracic echocardiographic examination, which potentially reduces the amount of work-related injury by reducing the excessive strain, repetitive motions, and the total duration of pressure during image acquisition.

Other methods to reduce the musculoskeletal strain have been published. Firstly, left-handed scanning from the left side of the patient can be used to reduce overload⁽¹⁴⁾. Still, implementation of the left-handed scanning technique requires more time and effort to retrain, especially in aged sonographers with large experience in right-handed scanning. Furthermore, an articulating support arm system was developed⁽¹⁵⁾. It is an articulating arm, designed to support the arm of the sonographer in a position to hold the transducer against the patient’s chest. Though, the system is intended for sonographers who scan with the left hand. The authors observed a significant reduction in muscle activity and shoulder abduction. The advantage of the probe stabilizer used in the current study is that after positioning the probe, a hands-off acquisition of views and measurements can be applied. Additionally, it has shown to be useful for stress echocardiography during ergometer tests in supine and upright positions⁽¹⁶⁾.

This study was performed in two different hospitals in the Netherlands. One of the hospitals (CH) used the iRotate method in combination with the probe stabilizer, which automatically rotates for the different apical windows, whereas the other hospital (DH) rotated the probe manually. We observed that the benefit on musculoskeletal load was higher when the probe stabilizer was combined with the iRotate method, which was used in 18 patients. With this method in combination with the stabilizer, extreme shoulder abduction occurred only in 36% of the time. With manual rotation extreme abduction occurred in 81% of the time (p <0.01). The percentage of flexor muscle activity in the forearm was 32% versus 64% (p <0.01), respectively.

There are some limitations to this study. Firstly, this was a pilot study with a short follow-up which not registered the number of actual work-related injuries. Secondly, we only collected data on movements of shoulder and wrist because these are the body parts most prone for injuries^(5,6). In future studies it should be considered to also analyse the effect on the neck, back, and hands, since these are also often mentioned locations of pain and discomfort^(3,17). Moreover, our study included only men with a good apical acoustic window. Therefore, it remains unsure if the probe stabilizer can be applied in women and in patients with other body characteristics such as obesity. Nevertheless, we expect the probe stabilizer to reduce work related injuries because we assume the stabilizer can be applied at least in 30% of patients in our echo department.

This study demonstrated that the use of a probe stabilizer by cardiac sonographers during routine transthoracic echocardiography reduces the total time of shoulder abduction and the use of the right forearm muscles. The probe stabilizer is therefore a promising tool in reducing work-related injury of sonographers.